World Journal of Nano Science and Engineering

World Journal of Nano Science and Engineering

ISSN Print: 2161-4954
ISSN Online: 2161-4962
www.scirp.org/journal/wjnse
E-mail: wjnse@scirp.org
"Experimental Investigation of Drilling Fluid Performance as Nanoparticles"
written by Jamal Nasser, Anna Jesil, Tariq Mohiuddin, Majid Al Ruqeshi, Geetha Devi, Shahjahan Mohataram,
published by World Journal of Nano Science and Engineering, Vol.3 No.3, 2013
has been cited by the following article(s):
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[2] Impact of zinc oxide nanoparticles on the rheological and fluid-loss properties, and the hydraulic performance of non-damaging drilling fluid
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[3] Advances in Carbon Nanostructures and Nanocellulose as Additives for Efficient Drilling Fluids: Trends and Future Perspective—A Review
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[7] Advanced development in upstream of petroleum industry using nanotechnology
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[8] Effect of a modified nano clay and nano graphene on rheology, stability of water-in-oil emulsion, and filtration control ability of oil-based drilling fluids: a comparative …
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[9] Effect of temperature and concentration of industrial waste graphene on rheological properties of water based mud
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[10] Applicability of Fe 3 O 4 nanoparticles for improving rheological and filtration properties of bentonite-water drilling fluids in the presence of sodium, calcium …
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[11] Effect of Ferric Oxide and Magnesium Oxide Nanoparticles on Iraqi Bentonite Performance in Water Based Drilling Fluid
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[12] Effect of Hydrophobic Iron Oxide Nanoparticles on the Properties of Oil-Based Drilling Fluid
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[13] Evolution of nanomaterials in petroleum industries: application and the challenges
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[14] Study of the Potential Use of Clay from Muratara Regency as Subtituent Materials for API Bentonite for Drilling Mud based on API RP 13B Mud Slurry Properties Tests
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[15] Effect of Nanoparticles on the Performance of Drilling Fluids
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[16] Recent Advances of Graphene-Derived Nanocomposites in Water-Based Drilling Fluids
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[17] Rheological study of a new water-based drilling fluid using Ubakala clay in the presence of natural polymers
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[18] Numerical Study of Cuttings Transport of Nanoparticle-Based Drilling Fluid
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[19] Experimental investigation of rheological & filtration properties and thermal conductivity of water-based drilling fluid enhanced
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[20] Drilling Fluids: Presence of Hazardous BTEXs and Crystalline Silica
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[21] Development of a green multifunctional additive for applications in water‑based drilling fluids
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[22] Numerical study of cuttings transport of nanoparticle‐based drilling fluid
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[23] Исследование инкапсуляторов глин на основе полиакриламида для систем буровых растворов
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[24] Pirina bazlı çeşitli katkıların su bazlı sondaj çamurunun reolojik ve filtrasyon özellikleri üzerine etkileri
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[25] NANOSILICA-ENHANCED WATER-BASED DRILLING MUD FOR HOLE CLEANING IN INCLINED WELLS
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[26] A review of nanotechnology applications in the oil and gas industries
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[27] A hybrid nanocomposite of poly (styrene-methyl methacrylate-acrylic acid)/clay as a novel rheology-improvement additive for drilling fluids
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[28] Experimental investigation and rheological behaviors of water-based drilling mud contained starch-ZnO nanofluids through response surface methodology
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[29] A Study of the Performance of Nanomaterials on Water Base Drilling Fluid
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[30] Rheology of a colloidal suspension of carbon nanotube particles in a water-based drilling fluid
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[31] Effect of Al2O3 nanoparticle on viscoelastic and filtration properties of a salt-polymer-based drilling fluid
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[32] An overview on the significance of carbon-based nanomaterials in upstream oil and gas industry
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[33] The thermal conductivity, viscosity, and cloud points of bentonite nanofluids with n-pentadecane as the base fluid
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[34] EFFECT OF GOLD NANOPARTICLE FUNCTIONALIZED MULTI-WALLED CARBON NANOTUBES ON THE PROPERTIES OF NA-BENTONITE WATER BASED DRILLING FLUID
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[35] Investigation of temperature dependence of drilling mud viscosity with silica nanoparticles addition
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[36] Evaluation of blended lime-stabilised spent synthetic-based drilling mud and cement for oil well cementing operations
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[37] Modification of Rheological and Filtration Characteristics of Water-based Mud for Drilling Oil and Gas Wells using Green SiO2@ ZnO@ Xanthan
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[38] Improving the Performance of Drilling Fluid Using Lignite Nano Particles
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[39] Impact of ZnO and CuO nanoparticles on the rheological and filtration properties of water-based drilling fluid
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[40] Polímeros basados en fuentes renovables como aditivos en fluidos de perforación en base agua para formaciones shale de Argentina
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[41] Experimental study on the effects of cement contamination in a water based mud
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[42] A review on zeolitic imidazolate frameworks use for crude oil spills cleanup
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[43] Modification of rheological and filtration characteristics of water-based mud for drilling oil and gas wells using green SiO2@ ZnO@ Xanthan nanocomposite
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[44] Application of intelligent well completion in optimising oilproduction from oil rim reservoirs
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[45] Inhibition of the Hydration Expansion of Sichuan Gas Shale by Adsorption of Compounded Surfactants
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[46] OIL FIELD CHEMICALS FROM MACROMOLECULAR RENEWABLE RESOURCES IN NIGERIA: AN INTEGRATION OF HYDROCARBON RECOVERY WITH …
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[47] The Effect of Micro-Sized Boron Nitride BN and Iron Trioxide Fe2O3 Nanoparticles on the Properties of Laboratory Bentonite Drilling Fluid
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[48] Propylene glycol mono and di stearates as water in oil emulsifiers for oil-well drilling fluids
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[49] Experimental investigation of the influence of nanoparticles on water-based mud
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[50] Nanopartículas aplicadas al control de pérdidas por filtrado en procesos de cementación de pozos petrolíferos
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[51] Cellulose nanofibrils as a replacement for xanthan gum (XGD) in water based muds (WBMs) to be used in shale formations
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[52] Rheological investigation of smart polymer/carbon nanotube complex on properties of water-based drilling fluids
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[53] Use of nanoparticle derived from natural source and its application in drilling fluid
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[54] Evaluating the Effects of Monovalent and Divalent Salts on the Rheological Properties of Water Based Mud
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[55] An experimental study to investigate the influence of temperature and pressure on the rheological characteristics of “Glydril” water-based muds
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[56] Enhancement of Drilling Fluid Properties Using Nanoparticles
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[57] Application of Nanotechnology in Oil and Gas Industry: Towards Enhanced Oil and Gas Recovery
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[58] Oil field chemicals from macromolecular renewable resources in nigeria: An integration of hydrocarbon recovery with bioresource utilization
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[59] Improving the Characteristics of Water-Based Drilling Fluids Using Nanoparticles
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[60] Nano Ferrites as Corrosion Inhibitors for Carbon Steel in Local Iraqi Bentonite Mud
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[61] Experimental Investigation of Limonene-based Environmental-Friendly Emulsion Drilling Mud
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[62] بررسی تجربی اثر اضافه کردن نانو ذرات بر لزجت، خاصیت قلیایی و چگالی گل حفاری پایه آبی‎
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[65] The Influence of SiO2 and TiO2 Nanoparticles on the Properties of Water-Based Mud
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[66] Effect of nanoparticles on the modifications of drilling fluids properties: A review of recent advances
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[67] THE EFFECT OF HIGH TEMPERATURES AND PRESSURES ON THE PROPERTIES OF WATER-BASED DRILLING MUD
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[68] Enhancement of Drilling Fluid Rheology by Nanoparticles
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[73] Nano-Based Drilling Fluids: A Review
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[76] The effect of nanoparticles on the heat transfer properties of drilling fluids
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[77] Rheological Behaviour of Graphene Nano-sheets in Hydrogenated Oil-based Drilling Fluid
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[78] Performance of low solid bentonite drilling fluids modified by cellulose nanoparticles
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[80] High-pressure rheology of alumina-silicone oil nanofluids
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[81] Enhancing Drilling Fluid Performance by Introducing Nanoparticles
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[82] THE USE OF PRODUCED WATER IN WATER-BASED DRILLING FLUIDS: INFLUENCE OF CALCIUM AND MAGNESIUM CONCENTRATIONS
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[83] Impact of Nanomaterials on the Rheological and Filtration Properties of Water-Based Drilling Fluids
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[84] USE OF CASSAVA DERIVATIVE IN WATER BASED DRILLING MUD
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[85] Effect of nanofluids of CuO and ZnO in polyethylene glycol and polyvinylpyrrolidone on the thermal, electrical, and filtration-loss properties of water-based drilling …
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[86] Experimental investigation of the influence of various nanoparticles on water-based mud
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[87] Drilling Fluid Design for Shale Gas Drilling
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[88] How the Drilling Fluids Can be Made More Efficient by Using Nanomaterials
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[89] Application of Ester based Drilling Fluid for Shale Gas Drilling
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[90] Effect of Nanofluids of CuO and ZnO in Polyethylene Glycol and Polyvinylpyrrolidone on the Thermal, Electrical, and Filtration-Loss Properties of Water-Based Drilling Fluids
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[91] Effect of magnesium salt contamination on the behavior of drilling fluids
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